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Authordc.contributor.authorGonzález Martínez, Marco 
Authordc.contributor.authorCárdenas Valencia, Carlos 
Authordc.contributor.authorRodríguez, Juan, I 
Authordc.contributor.authorLiu, Shubin 
Authordc.contributor.authorHeidar Zadeh, Farnaz 
Authordc.contributor.authorMiranda Quintana, Ramon Alain 
Authordc.contributor.authorAyers, Paul W. 
Admission datedc.date.accessioned2018-07-19T22:54:47Z
Available datedc.date.available2018-07-19T22:54:47Z
Publication datedc.date.issued2018
Cita de ítemdc.identifier.citationActa Phys. -Chim. Sin. 2018, 34 (6), 662–674es_ES
Identifierdc.identifier.other10.3866/PKU.WHXB201711021
Identifierdc.identifier.urihttps://repositorio.uchile.cl/handle/2250/150056
Abstractdc.description.abstractQuantitative correlation of several theoretical electrophilicity measures over different families of organic compounds are examined relative to the experimental values of Mayr et al. Notably, the ability to predict these values accurately will help to elucidate the reactivity and selectivity trends observed in charge-transfer reactions. A crucial advantage of this theoretical approach is that it provides this information without the need of experiments, which are often demanding and time-consuming. Here, two different types of electrophilicity measures were analyzed. First, models derived from conceptual density functional theory (c-DFT), including Parr's original proposal and further generalizations of this index, are investigated. For instance, the approaches of Gazquez et al. and Chamorro et al. are considered, whereby it is possible to distinguish between processes in which a molecule gains or loses electrons. Further, we also explored two novel electrophilicity definitions. On one hand, the potential of environmental perturbations to affect electron incorporation into a system is analyzed in terms of recent developments in c-DFT. These studies highlight the importance of considering the molecular surroundings when a consistent description of chemical reactivity is needed. On the other hand, we test a new definition of electrophilicity that is free from inconsistencies (so-called thermodynamic electrophilicity). This approach is based on Parr's pioneering insights, though it corrects issues present in the standard working expression for the calculation of electrophilicity. Additionally, we use machine-learning tools (i.e., symbolic regression) to identify the models that best fit the experimental values. In this way, the best possible description of the electrophilicity values in terms of different electronic structure quantities is obtained. Overall, this straightforward approach enables one to obtain good correlations between the theoretical and experimental quantities by using the simple, yet powerful, interpretative advantage of c-DFT methods. In general, we observed that the correlations found at the HF/6-31G(d) level of theory are of semi-quantitative value. To obtain more accurate results, we showed that working with families of compounds with similar functional groups is indispensable.es_ES
Patrocinadordc.description.sponsorshipFONDECYT 1140313 Financiamiento Basal para Centros Cientificos y Tecnologicos de Excelencia FB0807 NSERC; Canada Canada Research Chairs; Canada Compute Canada; Canada RC-130006 CILISes_ES
Lenguagedc.language.isoenes_ES
Publisherdc.publisherPeking University Presses_ES
Type of licensedc.rightsAttribution-NonCommercial-NoDerivs 3.0 Chile*
Link to Licensedc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/3.0/cl/*
Sourcedc.sourceActa Physico Chimica Sinicaes_ES
Keywordsdc.subjectElectrophilicityes_ES
Keywordsdc.subjectConceptual density functional theoryes_ES
Keywordsdc.subjectSymbolic regressiones_ES
Keywordsdc.subjectGenetic programminges_ES
Keywordsdc.subjectGrammatical evolutiones_ES
Títulodc.titleQuantitative electrophilicity measureses_ES
Document typedc.typeArtículo de revista
Catalogueruchile.catalogadortjnes_ES
Indexationuchile.indexArtículo de publicación ISIes_ES


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Attribution-NonCommercial-NoDerivs 3.0 Chile
Except where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivs 3.0 Chile